Contribution à l’étude phytochimique et moléculaire de la synthèse des coumarines et furocoumarines chez diverses variétés d’agrumes du genre Citrus

Coumarins and furanocoumarins are phytoalexines synthesized by some plant families (e.g. Rutaceæ that include citrus), to defend themselves against bioaggressors. Furanocoumarins can be toxic for humans, when combined with some drugs: this is the grapefruit juice effect. Nowadays, most of the cytochrome P450s involved in the furanocoumarin synthesis in Apiaceæ, have already been characterized. However, despite the economical importance of citrus, a little is known about the coumarins and furanocoumarins pathway in these plants. In this work, we created, optimized and validated an analytical method by ultra high performance liquid chromatography coupled with mass spectrometry (UPLC-MS), to identify and quantitate 28 coumarins and furanocoumarins in citrus peel and pulp. This method allowed us to chemotype 62 citrus varieties, distinguished by their low or high capacity to produce these compounds. In parallel, a bioinformatic work on public banks of genomic DNA from citrus, allowed to identify seven genes with high sequence homologies with those involved in the synthesis of furanocoumarins in Pastinaca sativa (CYP71) and in Arabidopsis thaliana (CYP82). A quantitative analysis of their expression level in citrus showed that four of them were more expressed in high coumarins and furanocoumarins producing fruits. The cloning of these genes and their heterologous expression in yeast, revealed the function of grapefruit and Combava CYP82D64, which catalyzes the hydroxylation of xanthotoxin in 5-hydroxy-xanthotoxin. The synthesis of coumarins and furanocoumarins in citrus, then better apprehended, allowed us to propose a breeding scheme aiming at decreasing the levels of these compounds in Citrus. We also showed the convergent evolution of CYP71 and CYP82 in their synthesis in Apiaceæ and in Rutaceæ respectively. The discovery of the first cytochrome P450 from Citrus involved in the production of these compounds, opens up new prospects for the elucidation of their biosynthetic pathway in citrusLes coumarines et furocoumarines sont des phytoalexines synthétisées par certaines familles de plantes (ex : Rutacées dont font partie les agrumes), pour se défendre contre les bioagresseurs. Les furocoumarines peuvent être toxiques pour l’homme, lorsqu’elles sont combinées à certains médicaments : c’est l’effet pomelo. Aujourd’hui, la plupart des cytochromes P450 impliqués dans la synthèse des furocoumarines chez les Apiacées, ont déjà été caractérisés. En revanche, malgré l’importance économique des agrumes, nous en savons très peu sur la voie de biosynthèse des coumarines et furocoumarines chez ces plantes. Dans ce travail, nous avons créé, optimisé et validé une méthode d’analyse en chromatographie liquide à ultra haute performance couplée à un spectromètre de masse (UPLC-MS), pour identifier et quantifier 28 coumarines et furocoumarines dans la peau et la pulpe d’agrumes. Cette méthode nous a permis de chémotyper 62 variétés d’agrumes, distinguées par leur faible ou forte capacité de production de ces composés. En parallèle, un travail de bioinformatique sur des banques publiques d’ADN génomique d’agrumes, a permis d’identifier sept gènes présentant de fortes homologies de séquences avec ceux intervenant dans la synthèse des furocoumarines chez Pastinaca sativa (CYP71) et chez Arabidopsis thaliana (CYP82). Une analyse quantitative de leur niveau d’expression chez des agrumes, a montré que quatre d’entre eux étaient plus fortement exprimés chez les fruits fortement producteurs de coumarines et furocoumarines. Le clonage de ces gènes et leur expression hétérologue chez la levure, a révélé la fonction de CYP82D64 de pomelo et de Combava, qui hydroxyle la xanthotoxine pour donner la 5-hydroxy-xanthotoxine. La synthèse des coumarines et furocoumarines chez les agrumes, ainsi mieux appréhendée, nous a permis de proposer un schéma de sélection variétale visant à abaisser les taux de ces composés chez les Citrus. Nous avons aussi montré l’évolution convergente des CYP71 et CYP82 dans leur synthèse chez les Apiacées et les Rutacées respectivement. La découverte du premier cytochrome P450 de Citrus intervenant dans la production de ces composés, ouvre de nouvelles perspectives quant à l’élucidation de leur voie de biosynthèse chez les agrume

Contribution to the phytochemical and molecular study of the synthesis of coumarins and furanocoumarins in various citrus varieties in the Citrus genus

Les coumarines et furocoumarines sont des phytoalexines synthétisées par certaines familles de plantes (ex : Rutacées dont font partie les agrumes), pour se défendre contre les bioagresseurs. Les furocoumarines peuvent être toxiques pour l’homme, lorsqu’elles sont combinées à certains médicaments : c’est l’effet pomelo. Aujourd’hui, la plupart des cytochromes P450 impliqués dans la synthèse des furocoumarines chez les Apiacées, ont déjà été caractérisés. En revanche, malgré l’importance économique des agrumes, nous en savons très peu sur la voie de biosynthèse des coumarines et furocoumarines chez ces plantes. Dans ce travail, nous avons créé, optimisé et validé une méthode d’analyse en chromatographie liquide à ultra haute performance couplée à un spectromètre de masse (UPLC-MS), pour identifier et quantifier 28 coumarines et furocoumarines dans la peau et la pulpe d’agrumes. Cette méthode nous a permis de chémotyper 62 variétés d’agrumes, distinguées par leur faible ou forte capacité de production de ces composés. En parallèle, un travail de bioinformatique sur des banques publiques d’ADN génomique d’agrumes, a permis d’identifier sept gènes présentant de fortes homologies de séquences avec ceux intervenant dans la synthèse des furocoumarines chez Pastinaca sativa (CYP71) et chez Arabidopsis thaliana (CYP82). Une analyse quantitative de leur niveau d’expression chez des agrumes, a montré que quatre d’entre eux étaient plus fortement exprimés chez les fruits fortement producteurs de coumarines et furocoumarines. Le clonage de ces gènes et leur expression hétérologue chez la levure, a révélé la fonction de CYP82D64 de pomelo et de Combava, qui hydroxyle la xanthotoxine pour donner la 5-hydroxy-xanthotoxine. La synthèse des coumarines et furocoumarines chez les agrumes, ainsi mieux appréhendée, nous a permis de proposer un schéma de sélection variétale visant à abaisser les taux de ces composés chez les Citrus. Nous avons aussi montré l’évolution convergente des CYP71 et CYP82 dans leur synthèse chez les Apiacées et les Rutacées respectivement. La découverte du premier cytochrome P450 de Citrus intervenant dans la production de ces composés, ouvre de nouvelles perspectives quant à l’élucidation de leur voie de biosynthèse chez les agrumesCoumarins and furanocoumarins are phytoalexines synthesized by some plant families (e.g. Rutaceæ that include citrus), to defend themselves against bioaggressors. Furanocoumarins can be toxic for humans, when combined with some drugs: this is the grapefruit juice effect. Nowadays, most of the cytochrome P450s involved in the furanocoumarin synthesis in Apiaceæ, have already been characterized. However, despite the economical importance of citrus, a little is known about the coumarins and furanocoumarins pathway in these plants. In this work, we created, optimized and validated an analytical method by ultra high performance liquid chromatography coupled with mass spectrometry (UPLC-MS), to identify and quantitate 28 coumarins and furanocoumarins in citrus peel and pulp. This method allowed us to chemotype 62 citrus varieties, distinguished by their low or high capacity to produce these compounds. In parallel, a bioinformatic work on public banks of genomic DNA from citrus, allowed to identify seven genes with high sequence homologies with those involved in the synthesis of furanocoumarins in Pastinaca sativa (CYP71) and in Arabidopsis thaliana (CYP82). A quantitative analysis of their expression level in citrus showed that four of them were more expressed in high coumarins and furanocoumarins producing fruits. The cloning of these genes and their heterologous expression in yeast, revealed the function of grapefruit and Combava CYP82D64, which catalyzes the hydroxylation of xanthotoxin in 5-hydroxy-xanthotoxin. The synthesis of coumarins and furanocoumarins in citrus, then better apprehended, allowed us to propose a breeding scheme aiming at decreasing the levels of these compounds in Citrus. We also showed the convergent evolution of CYP71 and CYP82 in their synthesis in Apiaceæ and in Rutaceæ respectively. The discovery of the first cytochrome P450 from Citrus involved in the production of these compounds, opens up new prospects for the elucidation of their biosynthetic pathway in citru

The Distribution of Coumarins and Furanocoumarins in Citrus Species Closely Matches Citrus Phylogeny and Reflects the Organization of Biosynthetic Pathways

International audienceCitrus plants are able to produce defense compounds such as coumarins and furanocoumarins to cope with herbivorous insects and pathogens. In humans, these chemical compounds are strong photosensitizers and can interact with medications, leading to the ``grapefruit juice effect''. Removing coumarins and furanocoumarins from food and cosmetics imply additional costs and might alter product quality. Thus, the selection of Citrus cultivars displaying low coumarin and furanocoumarin contents constitutes a valuable alternative. In this study, we performed ultra-performance liquid chromatography coupled with mass spectrometry analyses to determine the contents of these compounds within the peel and the pulp of 61 Citrus species representative of the genetic diversity all Citrus. Generally, Citrus peel contains larger diversity and higher concentrations of coumarin/furanocoumarin than the pulp of the same fruits. According to the chemotypes found in the peel, Citrus species can be separated into 4 groups that correspond to the 4 ancestral taxa (pummelos, mandarins, citrons and papedas) and extended with their respective secondary species descendants. Three of the 4 ancestral taxa (pummelos, citrons and papedas) synthesize high amounts of these compounds, whereas mandarins appear practically devoid of them. Additionally, all ancestral taxa and their hybrids are logically organized according to the coumarin and furanocoumarin pathways described in the literature. This organization allows hypotheses to be drawn regarding the biosynthetic origin of compounds for which the biogenesis remains unresolved. Determining coumarin and furanocoumarin contents is also helpful for hypothesizing the origin of Citrus species for which the phylogeny is presently not firmly established. Finally, this work also notes favorable hybridization schemes that will lead to low coumarin and furanocoumarin contents, and we propose to select mandarins and Ichang papeda as Citrus varieties for use in creating species devoid of these toxic compounds in future breeding programs

Convergent evolution leading to the appearance of furanocoumarins in citrus plants

International audienc

List of the accessions investigated in the study and their phylogenetic constitution.

<p>List of the accessions investigated in the study and their phylogenetic constitution.</p

Schematic representation of the coumarin and furanocoumarin pathways.

<p>Solid lines indicate direct enzymatic steps; dashed lines represent multiple enzymatic steps. Coumarins are framed in orange, furanocoumarins of the bergapten cluster are framed in blue, furanocoumarins of the xanthotoxin cluster are framed in red, and furanocoumarins of the isopimpinellin cluster are framed in green.</p

Heatmap displaying the coumarin and furanocoumarin profiles in the pulp of the 61 <i>Citrus</i> species investigated.

<p>A: heatmap; B: dendrogram of compounds; C: dendrogram of <i>Citrus</i> varieties. A red square highlights the presence of a given compound, while a yellow square shows its absence. Coumarins are represented in orange; furanocoumarins of the bergapten cluster, in blue; furanocoumarins of the xanthotoxin cluster, in red; and furanocoumarins of the isopimpinellin cluster, in green.</p

NJ analysis of the 23 citrus varieties belonging to the 4 ancestral taxa based on the coumarins and furanocoumarins contents in peel expressed as mg.kg^-1 fresh weight.

<p>Numbers in black represent the bootstrap probability values. The colors correspond to the phylogenetic constitution of the varieties and are indicated in Figs <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0142757#pone.0142757.g002" target="_blank">2</a> and <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0142757#pone.0142757.g003" target="_blank">3</a>.</p

Heatmap displaying the coumarin and furanocoumarin profiles in the peel of the 61 <i>Citrus</i> species investigated.

<p>A: heatmap; B: dendrogram of compounds; C: dendrogram of <i>Citrus</i> varieties. A red square highlights the presence of a given compound, while a yellow square shows its absence. Coumarins are represented in orange; furanocoumarins of the bergapten cluster, in blue; furanocoumarins of the xanthotoxin cluster, in red; and furanocoumarins of the isopimpinellin cluster, in green.</p

Coumarin and furanocoumarin quantities (mmol kg^-1 fresh weight) in the peel extracts of the 61 <i>Citrus</i> species investigated.

<p>Coumarins are represented in orange; furanocoumarins of the bergapten cluster, in blue; furanocoumarins of the xanthotoxin cluster, in red; and furanocoumarins of the isopimpinellin cluster, in green. Ancestral taxa and secondary species are highlighted in the bottom of the graph. Sweet mandarins are presented in bright red, and acidic mandarins are illustrated in deep red.</p